radioactive material - translation to English
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radioactive material - translation to English

ATOM THAT HAS EXCESS NUCLEAR ENERGY, MAKING IT UNSTABLE
Radioisotope; Radioactive isotopes; Radioisotopes; Radionuclides; Unstable isotope; Radioactive isotope; Radioactive material; Radio-isotope; Radionucleide; Commercially available radioisotopes; Radio isotopes; Radio isotope; Radioactive materials; Radioactive element; Radioisotope production; Radioactive nucleus; Radio-nuclide; Radioactive nuclide; Unstable nucleus; Neutron deficient; Proton deficient; Radioactive nuclei; Unstable nuclei
  • Americium-241 container in a smoke detector.
  • Americium-241 capsule as found in smoke detector. The circle of darker metal in the center is americium-241; the surrounding casing is aluminium.
  • [[Artificial]] [[nuclide]] [[americium-241]] emitting [[alpha particle]]s inserted into a [[cloud chamber]] for visualisation

radioactive material         
(n.) = material radioactivo
Ex: The cellulose fibres used in the manufacture of paper for books readily become contaminated with radioactive materials through their ecological cycle.
radionuclide         
(n.) = radionúclido
Ex: These can be radioisotopes of nuclear fallout origin as well as radionuclides from primordial sources.
radioisotope         
(n.) = radioisótopo, isótopo radioactivo
Ex: These can be radioisotopes of nuclear fallout origin as well as radionuclides from primordial sources.

Definition

pétreo
pétreo, -a (del lat. "petreus")
1 adj. De piedra.
2 Como la piedra. Particularmente, *duro y *fuerte como la piedra.
3 Pedregoso.

Wikipedia

Radionuclide

A radionuclide (radioactive nuclide, radioisotope or radioactive isotope) is a nuclide that has excess nuclear energy, making it unstable. This excess energy can be used in one of three ways: emitted from the nucleus as gamma radiation; transferred to one of its electrons to release it as a conversion electron; or used to create and emit a new particle (alpha particle or beta particle) from the nucleus. During those processes, the radionuclide is said to undergo radioactive decay. These emissions are considered ionizing radiation because they are energetic enough to liberate an electron from another atom. The radioactive decay can produce a stable nuclide or will sometimes produce a new unstable radionuclide which may undergo further decay. Radioactive decay is a random process at the level of single atoms: it is impossible to predict when one particular atom will decay. However, for a collection of atoms of a single nuclide the decay rate, and thus the half-life (t1/2) for that collection, can be calculated from their measured decay constants. The range of the half-lives of radioactive atoms has no known limits and spans a time range of over 55 orders of magnitude.

Radionuclides occur naturally or are artificially produced in nuclear reactors, cyclotrons, particle accelerators or radionuclide generators. There are about 730 radionuclides with half-lives longer than 60 minutes (see list of nuclides). Thirty-two of those are primordial radionuclides that were created before the earth was formed. At least another 60 radionuclides are detectable in nature, either as daughters of primordial radionuclides or as radionuclides produced through natural production on Earth by cosmic radiation. More than 2400 radionuclides have half-lives less than 60 minutes. Most of those are only produced artificially, and have very short half-lives. For comparison, there are about 251 stable nuclides. (In theory, only 146 of them are stable, and the other 105 are believed to decay via alpha decay, beta decay, double beta decay, electron capture, or double electron capture.)

All chemical elements can exist as radionuclides. Even the lightest element, hydrogen, has a well-known radionuclide, tritium. Elements heavier than lead, and the elements technetium and promethium, exist only as radionuclides. (In theory, elements heavier than dysprosium exist only as radionuclides, but some such elements, like gold and platinum, are observationally stable and their half-lives have not been determined).

Unplanned exposure to radionuclides generally has a harmful effect on living organisms including humans, although low levels of exposure occur naturally without harm. The degree of harm will depend on the nature and extent of the radiation produced, the amount and nature of exposure (close contact, inhalation or ingestion), and the biochemical properties of the element; with increased risk of cancer the most usual consequence. However, radionuclides with suitable properties are used in nuclear medicine for both diagnosis and treatment. An imaging tracer made with radionuclides is called a radioactive tracer. A pharmaceutical drug made with radionuclides is called a radiopharmaceutical.

Examples of use of radioactive material
1. "The KGB could make polonium and any radioactive material.
2. "Those are small devices containing radioactive material for medical and hospital use," he said.
3. "What made the radioactive material more dangerous was that it was in a powder form.
4. The radioactive material was bought from a commercial source by telephone, the GAO said.
5. Two others who tested positive for the rare radioactive material also visited the hotel‘s bar.